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| 論文分類 | 碩士論文 |
|---|---|
| 學號 | 9025601 |
| 姓名 | 廖婉君 |
| 標題(中) | 利用攝氧率量測AO活性污泥程序異營菌質量及動力參數之研究 |
| 標題(英) | Determination of Heterotrophic Biomass and Kinetic Coefficients in AO Activated Sludge Process Using Oxygen Uptake Rate |
| 指導教授 | 白子易 |
| 畢業日期 | 2003-07 |
| 附件檔案 | |
| 參考連結 | http://ir.lib.cyut.edu.tw:8080/handle/310901800/1665 |
| 摘要 | 傳統污水廠設計及操作的主要考量是微生物及進流碳基質濃度的質量平衡。而在生物去除營養鹽系統,必須考慮氮、磷的質量平衡及參與反應的微生物族群,因此微生物 biomass在設計及操作活性污泥程序時相當重要。當試圖量化廢污水所含之biomass及各項成份時,由於參數選擇的不同,使得進行活性污泥相關實驗時所收集的動力數據呈現不同的特性。 本研究以A/O (Anaerobic-Aerobic) 程序探討於不同SRT變動下去除效率。並進行OUR批次實驗以估計活性污泥中異營菌、自營菌等活性biomass的比例。建立相關數 |
| 參考文獻 | Argaman, Y., and Papkov, G., “A Steady-Ttate Model for the Single Sludge Activated Sludge System-Ⅱ. Model Application,” Wat. Sci., Vol. 29, No. 1, pp. 147-153 (1995). Belser, L. W., and Mays, E. L., “Specific Inhibition of Nitrite Oxidation by Chlorate and Its Use in Assessing Nitrification in Soils and Sediments,” Appl. Environ. Microbiol., Vol. 39, pp. 505-510 (1980). Comeau Y., Hall K. J., Hancock R. E. W. and Oldham W. K. “Biochemical Model for Enhanced Biological Phosphorus Removal,” Wat. Res., Vol. 20, pp. 1511-1521 (1986). Euiso, C., and Daehwan, R., “NUR and OUR Relationship in BNR Processes with Swage at Different Temperatures and Its Design Application,” Wat. Res., Vol. 35, No. 7, pp. 1748-1756 (2001). Gernaey, A. K., Petersen, B., Ottoy, J. P., and Vanrolleghem, P., “Actived Sludge Monitoring with Combined Pespirometric-Titrimeteric Measurements,” Wat. Res., Vol 35, NO. 5, pp. 1280-1294 (2000). Goel, R., Mino, T., and Satoh, H., “Comparison of Hydrolytic Enzyme systems in Pure Culture and Activated Sludge under Different Electron Acceptor Conditions,” Wai. Sci. Tech., Vol. 37, No. 4-5 pp. 335-343 (1998). Harremoes, P., Haarob, A., Winther-Nielsen, M., and Thirsing, C., “Six Years of Pilot Plant Studies for Design of Treatment Plants for Nutrient Removal,” Wat. Sci. Tech., Vol. 38, No. 1, pp. 219-226 (1998). Henze, M., Grady, Jr. C. P. L., Gujer, W, Marais, G. v. R., and Matsuo, T., “Activated Sludge Model NO. 1. Scientific and Technical Report NO. 1. International Association on Water Pollution Research and Control,” London (1987). Henze, M., Gujer, W., Mino, T., Matsuo, T., Wentzel, M. C., and Marais, G. v. R., “Activated Sludge Model NO. 2. IAWQ Scientific and Technical Report NO. 3, IAWQ, London (1995). Henze, M., Gujer, W., Mino, T., Matsuo, T., Wentzel, M. C., Marais, G. v. R., and van Loosdrecht, M. C. M., “Activated sludge Model NO. 2d. ASM2d, ” Wat. Sci. Tech., Vol. 39, No. 1, pp. 165-182 (1999). Hynes, R. K., and Knowle, R., “Inhibition of Chemoautotrophic Nitrification by Sodium Chlorate and Sodium Chlorite: A Reexamination,” Appl. Environ. Microbiol., Vol. 45, pp. 1178-1182 (1983). Kristensen, G. H., and Jorgensen, P. E., “Characterization of Functional Microorganism Groups and Substrate in Activated Sludge and Wastewater by AUR, NUR and OUR,” Wat. Sci. Tech., Vol. 25, No. 6, pp. 43-57 (1997). Leenen, E. J. T. M., van Boxtel, A. M. G. A., Englund, G., Tramper, J., and Wijffels. R. H., “Reduced Temperature sensitivity of Immobilized Nitrobacter Agilis Cells Caused by Diffusion Limitation,” Elsevier Science Inc., Vol. 20, pp. 573-580 (1997). Marsili-Libello, S., and Tabani, F., “Accuracy Analysis of a Respirometer for Activated Sludge Dynamic Modeling,” Water Research, Vol. 36, pp. 1181-1192 (2002). Mino, T., San Pedro, D. C., Yamamoto, S., and Matsuo, T., “Application of the IAWQ Activated Sludge Model to Nutrient Removal Process,” Wat. Sci. Tech., Vol. 35, No. 8, pp. 111-118 (1997). Mino, T., van Loosdrech,t M. C. M., and Heijnen, J. J., “Microbiology and Biochemistry of the Enhanced Biological Phosphate Removal Process,” Wat. Res., Vol. 32, No. 11, pp. 3193-3207 (1998). Nicholas, J., and Wood, J. S., “Osmotic Stimulation of Microcolony Development by Nitrosomonas Europaea,” FEMS Microbiology Ecology, Vol. 27, pp. 175-183 (1998). Orhon, D., and Artan, N., “Modeling of Activated Sludge System,” Technomic, PV (1994). Ouyang, C. F., Chou, Y. J., Pai, T. Y., Chang, H. Y., and Liu, W. T., “Optimization of Enhanced Biological Wastewater Treatment Processes Using a Step-Feed Approach, Advances in Water and Wastewater Treatment Technology in 2000 -- Molecular technology, nutrient removal, sludge reduction, and environmental health. ” Elsevier Science, (2000). Pramanik, J., Trelstad, P. L., Schuler, A. J., Jenkins, D., and Keasling, J. D., “Development and Validation of a Flux-Based stoichiometric Model for Enhanced Biological Phosphorus Metabolism,” Wat. Res., Vol. 33, No. 2, pp. 462-476 (1999). Randall C. W., Barnard J. L. and Stensel H. D., “Design and Retrofit of Wastewater Treatment Plants for Biological Nutrient Removal,” Technomic Publishing Company, Inc., Vol. 1-4 (1992). Randall, E. W., Wilkinson, A., and Ekama., G. A., “An Instrunient for the Direct Determination of Oxygen Utilization Rate,” Water SA, Vol. 17, No. 1, pp. 11-18 (1991). Smolders, G. J. F., van Loosdrecht, M. C. M., and Heijnen, J. J. “A Metabolic Model for the Biological Phosphorus Removal Process,” Wat. Sci. Tech., Vol. 31, pp. 79-93 (1995). Spanjer, H., Respirometry in Activated sludge, Doctoral thesis, Wageningen Agricultural University, Wageningen, Netherlands. (1993). Spanjer, H., Vanrolleghem, P. A., Olsson, G., and Dold, P. L., Respirometry in control of the activated Sludge process: principles, IWA, London (1998). Stratfulu, I., Brett, S., Scrimshaw, M. B., and Lester, J. N., “Biological Phosphorus Removal, Its Role in Phosphorus Recycling,” Environ. Technol., Vol. 20, No. 7, pp. 681-695 (1999). Tartakovsky, B., Kotlar, E., and. Sheintuch, M., “Coupled Nitrification-Denitrification Processes in a Mixed Culture of Coimmobilized Cells: Analysis and Experiment,” Chemical Engineering Science, Vol. 51, No. 10, pp. 2327-2336 (1996). Van Veldhuizen, H. M., van Loosdrecht, M. C. M., and Heijnen, J. J., “Modeling Biological Phosphorus and Nitrogen Removal in a Full Scale Activated Sludge Process,” Wat. Res., Vol. 33, No. 16, pp. 3459-3468 (1999). Volsch, A., Nader, W. F., Geiss, G. K., Sonntag, H. G., and Birr, C., “Test zur Bestimmung der Aktivitat von Nitrifizierenden Bakterien in Belebtschlamm,” GWF Wasser-Abwasser, Vol. 131, pp. 301-306 (1990). WEF, “Biological and Chemical Systems for Nutrient Removal,” Water Environment Federation, VA (1999) Wentzel M. C., Lötter L. H., Loewenthal R. E., Ekama G. A., Lewenthal R. E. and Marais G. v. R. “Evaluation of Biochemical Model for Biological Excess Phosphorus Removal,” Wat. Sci. Tech., Vol. 23, pp. 567-576 (1991). Wentzel, M. C., Lötter, L. H., Loewenthal, R. E., and Marais, G. v. R., “Metabolic Behavior of Acenetobacter spp. in Enhanced Biological Phosphorus Removal - A Biochemical Model,” Water SA, Vol. 12, No. 4, pp. 209-224 (1986). Wentzel, M. C., Ubisi, M. F., and Ekama, G. A., “Heterotrophic Active Biomass Component of Activated Sludge Mixed Liquor,” Wai. Sci. Tech., Vol. 37, No. 4-5, pp.79-87 (1998). Wijffels, R. H., de Gooijer, C. D., Schepers, A. W., Benling, E. E., Mallee, L. F., and Tramper, J., “Dynamic Modeling of Immobilized Nitrosomonas Europaea: Implementation of Diffusion Limitation Over Expanding Microcolonies,” Elsevier Science Ine., Vol. 17, pp. 462-471 (1995). Wood, L. B., Hurley, B. J., and Matthews, P. J., “Some Observations on the Biochemistry and Inhibition of Nitrification,” Wat. Res., Vol. 15, pp. 543-551 (1981). 白子易,廖宜慶,歐陽嶠暉,陳瞻宇,呂鴻光,”重力式下水道中氧傳輸係數的探討”,第九屆下水道討論研究會論文集,pp. 173-181,台北 (1999)。 白子易,「下水道系統生化動力模式建立之研究」,國立中央大學環境工程學研究所,博士論文,中壢 (2000)。 白子易,蔡勇斌,莊順興,呂鴻光,”BNR活性污泥程序二階段硝化模式 (台灣活性污泥模式TWEA1) 之發展”,第十三屆下水道及水環境再生研討會,台灣水環境再生協會,台北 (2003)。(已投稿) 張謝淵,「AOAO污水處理程序去除營養源之特性研究」,國立中央大學環境工程學研究所,博士論文,中壢 (2000)。 陳宇陽,「FENTON程序改善染整廢水有機物特性之研究」,私立淡江大學水資源及環境工程學系,碩士論文,台北 (2000)。 歐陽嶠暉,下水道工程學,長松,台北 (2000)。 潭仲萍,「添加固定化擔體對AO及AOAO程序脫氮除磷影響之研究」,國立雲林科技大學環境安全工程系,碩士論文,雲林 (2001)。 蘇昭郎,「厭氧好氧RBC及活性污泥去除營養源之研究特性」,國立中央大學土木工程學研究所,博士論文,中壢 (1996)。 |
